…Coherent pioneered femtosecondlaser technology and developed the Chameleon laser in response to demand from the life sciences community for a hands-free, tunable laser. The advent of advanced in-vivo microscopy techniques and functional imaging is now inspiring a new generation of femtosecondlaser…

…of the commonly used non-linear imaging techniques, often collectively referred to as multiphoton excitation (MPE) that currently rely on femtosecondlaser sources and deliver inherent three-dimensional imaging. The oldest and simplest method is twophoton excitation of fluorescent dyes and probes.…

…and femtosecond)lasers are an essential subset of the lasers used today in industry and the medical arena (for example, machining glass for smartphone screens for the former, and laser eye surgery for the latter), it is the use of ultrafast lasers in research that allows such lasers to show…

Chameleon Ti:Sapphire Lasers Tunable, High Power, Hands-free FemtosecondLasers for Non-linear Imaging With more than 2500 installations worldwide, Chameleon lasers are recognized as the genuine workhorses of the multiphoton imaging community.The highest average power in the market enables deep…

…post-processing costs can be saved. Femtosecondlaser processing The process requirements mentioned above call for laser pulse widths in the femtosecond range. Femtosecond pulses enable new machining qualities that result from a non-thermal ablation effect. On a femtosecond time scale, material…

…post-processing costs can be saved. Femtosecondlaser processing The process requirements mentioned above call for laser pulse widths in the femtosecond range. Femtosecond pulses enable new machining qualities that result from a non-thermal ablation effect. On a femtosecond time scale, material…

…In multiphoton microscopy, an ultrafast laser is tightly focused at a target depth in the sample. An ultrafast laser provides a high frequency (up to 100 MHz) stream of pulses with pulsewidths (pulse durations) as short as a few tens of femtoseconds. At the focal plane, and only at the focal…

…Coherent pioneered femtosecondlaser technology and developed the Chameleon laser in response to demand from the life sciences community for a hands-free, tunable laser. The advent of advanced in-vivo microscopy techniques and functional imaging is now inspiring a new generation of femtosecondlaser…

Risk factors: Except for the historical information contained here, many of the matters discussed in this Web site are forward-looking statements, based on expectations at the time they were made, that involve risks and uncertainties that could cause our results to differ materially from those expressed or implied by such statements. These risks are detailed in the “Factors That May Affect Future Results” section of our latest 10-K or 10-Q filing. Coherent assumes no obligation to update these forward-looking statements.